The anti-lung cancer activity of oligosaccharides derived from glucuronomannan was investigated. The inhibition of A549 cell proliferation by glucuronomannan (Gn) and its oligomers (dimer (G2), tetramer (G4) and hexamer (G6)) were concentration dependent. In vivo activities on the A549-derived tumor xenografts showed the tumor inhibition of G2, G4 and G6 were 17 %, 40 % and 46 %, respectively. Organ coefficients in nude mice showed an increase in the kidney with G4, the brain with G6, and the spleen with G6. An advanced tandem mass tag labeled proteomics approach was performed. A significant differential expression was found in 59 out of the 4371 proteins, which involved the immune system. Surface plasmon resonance (SPR) studies revealed G6 was strongly bound to immunoglobulin G. This suggests that glucuronomannan hexamer inhibits the proliferation of lung cancer through its binding to immunoglobulin.The macroalgal hydrocolloid industry is a rapidly growing industry with an annual growth in the global production of 2-3 %. Hydrocolloids from macroalgae are mainly in the form of polysaccharides with other nutrients, such as vitamins, minerals, and proteins. Due to its potential industrial applications, macroalgae have been used as raw materials for hydrocolloids extraction. Compared to the conventional extraction methods, emerging innovative assisted extraction technologies (e.g., Ultrasound/Microwave assisted extraction) have been developed to maximise the extraction yields, efficiency and thereby, maintaining sustainability along the process. These novel techniques are considered as clean and green strategies, with a potential for a large-scale production; thus, avoiding or reducing the use of chemicals. However, more research is required to establish their mechanism of action in order to finally implement them at industrial level. This paper reviews the most relevant strategies and technologies involved in the production of hydrocolloids from macroalgae.To optimize the extraction of polysaccharides from Notopterygium franchetii Boiss (NFP), microwave-assisted aqueous two phase system (MAATPS) and response surface methodology (RSM) were employed. Results showed that the optimum conditions of MAATPS were as follows ethanol concentration of 32 % (w/w), (NH4)2SO4 concentration of 24 % (w/w) and extraction time of 15 min. Under such condition, YS (the recovery of polysaccharides) was 80.57 % with 90.40 % of YP (the recovery of proteins). https://www.selleckchem.com/products/g140.html In addition, analysis of the physicochemical properties of extracted polysaccharides (NFP-MAATPS) under the optimal conditions indicated that compared to polysaccharides extracted by traditional extraction method (NFP-HWE), NFP-MAATPS exhibited higher extraction efficiency, decreased average molecular weight, different monosaccharide compositions and mole ratios. Moreover, NFP-MAATPS exhibited stronger antioxidant activity in vitro and more potent anti-inflammatory activity in zebrafish embryos than NFP-HWE. Our results suggest that purified NFP-MAATPS could be potentially used in complementary medicines or functional foods.Due to the poor solubility and permeability of rifaximin (RFX), it is not effective against intracellular pathogens although it shows strong activity against most bacteria. To develop an effective mucoadhesive drug delivery system with a targeted release in bacterial infection site, RFX-loaded chitosan (CS)/carboxymethyl-chitosan (CMCS) nanogel was designed and systematically evaluated. FTIR, DSC, and XRD demonstrated that the nanogel was formed by interactions between the positively charged NH3+ on CS and CMCS, and the negatively charged COO on CMCS. RFX was encapsulated into the optimized nanogel in amorphous form. The nanogel was a uniform spherical shape with a mean diameter of 171.07 nm. It had excellent sustained release, strong mucin binding ability, and pH-responsive properties of quicker swelling and release at acidic pH. It showed low hemolytic ratio and high antioxidant activity. The present investigation indicated that the CS-nanogel could be potentially used as a promising bacterial responsiveness drug delivery system.In this study, the beneficial effects of a homogalacturonan(HG)-type pectic polysaccharide from Ficus pumila L. fruits (FPLP) in obese mice were investigated. The 17-week FPLP treatment effectively attenuated obesity, as mainly demonstrated by the reductions of body weight, serum total cholesterol (TC) and low-density lipoprotein cholesterol (LDL-C) levels in high-fat diet (HFD)-induced obese mice. The decreased Firmicutes to Bacteroidetes abundance ratio, enriched Akkermansia, and reduced Blautia abundance suggested that FPLP ameliorated the HFD-induced gut dysbiosis. FPLP also influenced the levels of metabolites altered upon HFD feeding, including increases in myristoleic acid and pentadecanoic acid levels. The correlation studies indicated that FPLP ameliorated HFD-induced rise in TC and LDL-C levels through regulating gut microbial community and their associated metabolites. In conclusion, this study extends our understanding of the relationships among gut microbiota (Akkermansia and Blautia), metabolites (myristoleic acid and pentadecanoic acid), HG-type pectin and its TC- and LDL-C- lowering functions.A model-based rheological characterization of four sphingans in combination with four prominent surfactants of cosmetic formulations of cationic, anionic, zwitterionic and neutral headgroup characteristics was performed. The impact of the surfactants on the rheological properties, based on changes in the mechanical models was evaluated in respect to the closely related structural differences of the polysaccharides, to give an insight on the structure-function relationship of these interactions. The side chains of the sphingans Welan, Diutan and S-88 seem to be involved in the masking of the anionic charge of the polysaccharide backbone, making them highly compatible even with cationic surfactants. The effect of a disaccharide side chain of Diutan also impacts its intermolecular interactions opposed to Welan and S-88, resulting in different surfactant interactions as well as temperature stability. The lack of a side chain in Gellan leads to large incompatibilities with zwitterionic and cationic surfactants due to high polysaccharide-surfactant interactions.